This paper provides a mathematical formalization of the BIMODconstitutional polarity system, investigating Nasion-centeredstructural polarity discrimination and its implications forpolarity-aware instrumentation architecture. The framework integrates: (1) theoretical formalization viavector field and energy-based abstraction; (2) experimentalconstraint design through double-blind optical protocols; (3) statistical validation framework with binomial thresholdat N ≥ 20; and (4) a staged instrumentation development pathway. The constitutional state is represented as a vector fieldF = Σ Pᵢeᵢ where Pᵢ ∈ +1, −1 denotes binary polarity ateach of eight Nasion loci. An interaction energy functionalE = −Σ PᵢSᵢ formalizes the resonance condition. The opticalprotocol explicitly requires unprocessed original photographicdata to ensure methodological integrity. This work belongs tothe domains of biophysics and measurement theory, and is openlyavailable for review, critique, and replication.
Duck Jin Yoon (Tue,) studied this question.